Title: Chapter%208%20Arrays%20and%20Strings
1Chapter 8Arrays and Strings
2Objectives
- In this chapter, you will
- Learn about arrays
- Declare and manipulate data into arrays
- Learn about array index out of bounds
- Learn about the restrictions on array processing
- Pass an array as a parameter to a function
- Search and sort an array
3Objectives (contd.)
- In this chapter, you will (contd.)
- Learn about C-strings
- Use string functions to process C-strings
- Input data intoand output data froma C-string
- Learn about parallel arrays
- Manipulate data in a two-dimensional array
- Learn about multidimensional arrays
4Introduction
- Simple data type variables of these types can
store only one value at a time - Structured data type a data type in which each
data item is a collection of other data items
5Arrays
- Array a collection of a fixed number of
components, all of the same data type - One-dimensional array components are arranged in
a list form - Syntax for declaring a one-dimensional array
- intExp any constant expression that evaluates to
a positive integer
6Accessing Array Components
- General syntax
- indexExp called the index
- An expression with a nonnegative integer value
- Value of the index is the position of the item in
the array - array subscripting operator
- Array index always starts at 0
7Accessing Array Components (contd.)
8Accessing Array Components (contd.)
9Processing One-Dimensional Arrays
- Basic operations on a one-dimensional array
- Initializing
- Inputting data
- Outputting data stored in an array
- Finding the largest and/or smallest element
- Each operation requires ability to step through
elements of the array - Easily accomplished by a loop
10Processing One-Dimensional Arrays (contd.)
- Given the declaration
- int list100 //array of size 100
- int i
- Use a for loop to access array elements
- for (i 0 i lt 100 i) //Line 1
- cin gtgt listi //Line 2
11Array Index Out of Bounds
- Index of an array is in bounds if the index is
gt0 and lt ARRAY_SIZE-1 - Otherwise, the index is out of bounds
- In C, there is no guard against indices that
are out of bounds
12Array Initialization During Declaration
- Arrays can be initialized during declaration
- Values are placed between curly braces
- Size determined by the number of initial values
in the braces - Example
- double sales 12.25, 32.50, 16.90, 23, 45.68
13Partial Initialization of Arrays During
Declaration
- The statement
- int list10 0
- Declares an array of 10 components and
initializes all of them to zero - The statement
- int list10 8, 5, 12
- Declares an array of 10 components and
initializes list0 to 8, list1 to 5, list2
to 12 - All other components are initialized to 0
14Some Restrictions on Array Processing
- Aggregate operation any operation that
manipulates the entire array as a single unit - Not allowed on arrays in C
- Example
- Solution
15Arrays as Parameters to Functions
- Arrays are passed by reference only
- Do not use symbol when declaring an array as a
formal parameter - Size of the array is usually omitted
- If provided, it is ignored by the compiler
- Example
16Constant Arrays as Formal Parameters
- Can prevent a function from changing the actual
parameter when passed by reference - Use const in the declaration of the formal
parameter - Example
17Base Address of an Array and Array in Computer
Memory
- Base address of an array address (memory
location) of the first array component - Example
- If list is a one-dimensional array, its base
address is the address of list0 - When an array is passed as a parameter, the base
address of the actual array is passed to the
formal parameter
18Functions Cannot Return a Value of the Type Array
- C does not allow functions to return a value of
type array
19Integral Data Type and Array Indices
- C allows any integral type to be used as an
array index - Improves code readability
- Example
20Other Ways to Declare Arrays
21Searching an Array for a Specific Item
- Sequential search (or linear search)
- Searching a list for a given item, starting from
the first array element - Compare each element in the array with value
being searched for - Continue the search until item is found or no
more data is left in the list
22Selection Sort
- Selection sort rearrange the list by selecting
an element and moving it to its proper position - Steps
- Find the smallest element in the unsorted portion
of the list - Move it to the top of the unsorted portion by
swapping with the element currently there - Start again with the rest of the list
23Selection Sort (contd.)
24C-Strings (Character Arrays)
- Character array an array whose components are of
type char - C-strings are null-terminated ('\0) character
arrays - Example
- 'A' is the character A
- "A" is the C-string A
- "A" represents two characters, 'A' and '\0
25C-Strings (Character Arrays) (contd.)
- Example
- char name16
- Since C-strings are null terminated and name has
16 components, the largest string it can store
has 15 characters - If you store a string whose length is less than
the array size, the last components are unused
26C-Strings (Character Arrays) (contd.)
- Size of an array can be omitted if the array is
initialized during declaration - Example
- char name "John"
- Declares an array of length 5 and stores the
C-string "John" in it - Useful string manipulation functions
- strcpy, strcmp, and strlen
27String Comparison
- C-strings are compared character by character
using the collating sequence of the system - Use the function strcmp
- If using the ASCII character set
- "Air" lt "Boat"
- "Air" lt "An"
- "Bill" lt "Billy"
- "Hello" lt "hello"
28Reading and Writing Strings
- Most rules for arrays also apply to C-strings
(which are character arrays) - Aggregate operations, such as assignment and
comparison, are not allowed on arrays - C does allow aggregate operations for the input
and output of C-strings
29String Input
- Example
- cin gtgt name
- Stores the next input C-string into name
- To read strings with blanks, use get function
- cin.get(str, m1)
- Stores the next m characters into str but the
newline character is not stored in str - If input string has fewer than m characters,
reading stops at the newline character
30String Output
- Example
- cout ltlt name
- Outputs the content of name on the screen
- ltlt continues to write the contents of name until
it finds the null character - If name does not contain the null character, then
strange output may occur - ltlt continues to output data from memory adjacent
to name until a '\0' is found
31Specifying Input/Output Files at Execution Time
- User can specify the name of an input and/or
output file at execution time
32string Type and Input/Output Files
- Argument to the open function must be a
null-terminated string (a C-string) - If using a string variable for the name of an I/O
file, the value must first be converted to a
C-string before calling open - Use the c_str function to convert
- Syntax
- strVar.c_str()
- Where strVar is a variable of type string
33Parallel Arrays
- Two (or more) arrays are called parallel if their
corresponding components hold related information - Example
- int studentId50
- char courseGrade50
34Two- and Multidimensional Arrays
- Two-dimensional array collection of a fixed
number of components (of the same type) arranged
in two dimensions - Sometimes called matrices or tables
- Declaration syntax
-
- intExp1 and intExp2 are expressions with positive
integer values specifying the number of rows and
columns in the array
35Accessing Array Components
- Accessing components in a two-dimensional array
- Where indexExp1 and indexExp2 are expressions
with positive integer values, and specify the row
and column position - Example
- sales53 25.75
36Accessing Array Components (contd.)
37Two-Dimensional Array Initialization During
Declaration
- Two-dimensional arrays can be initialized when
they are declared - Elements of each row are enclosed within braces
and separated by commas - All rows are enclosed within braces
- For number arrays, unspecified elements are set
to 0
38Two-Dimensional Arrays and Enumeration Types
- Enumeration types can be used for array indices
39Processing Two-Dimensional Arrays
- Ways to process a two-dimensional array
- Process entire array
- Row processing process a single row at a time
- Column processing process a single column at a
time - Each row and each column of a two-dimensional
array is a one-dimensional array - To process, use algorithms similar to processing
one-dimensional arrays
40Initialization
- Examples
- To initialize row number 4 (fifth row) to 0
- To initialize the entire matrix to 0
41Print
- Use a nested loop to output the components of a
two dimensional array
42Input
- Examples
- To input into row number 4 (fifth row)
- To input data into each component of matrix
43Sum by Row
- Example
- To find the sum of row number 4
44Sum by Column
- Example
- To find the sum of each individual column
45Largest Element in Each Row and Each Column
- Example
- To find the largest element in each row
46Passing Two-Dimensional Arrays as Parameters to
Functions
- Two-dimensional arrays are passed by reference as
parameters to a function - Base address is passed to formal parameter
- Two-dimensional arrays are stored in row order
- When declaring a two-dimensional array as a
formal parameter, can omit size of first
dimension, but not the second
47Arrays of Strings
- Strings in C can be manipulated using either
the data type string or character arrays
(C-strings) - On some compilers, the data type string may not
be available in Standard C (i.e., non-ANSI/ISO
Standard C)
48Arrays of Strings and the string Type
- To declare an array of 100 components of type
string - string list100
- Basic operations, such as assignment, comparison,
and input/output, can be performed on values of
the string type - The data in list can be processed just like any
one-dimensional array
49Arrays of Strings and C-Strings (Character Arrays)
50Another Way to Declare a Two-Dimensional Array
- Can use typedef to define a two-dimensional array
data type - To declare an array of 20 rows and 10 columns
51Multidimensional Arrays
- n-dimensional array collection of a fixed number
of elements arranged in n dimensions (n gt 1) - Declaration syntax
- To access a component
52Summary
- Array structured data type with a fixed number
of components of the same type - Components are accessed using their relative
positions in the array - Elements of a one-dimensional array are arranged
in the form of a list - An array index can be any expression that
evaluates to a nonnegative integer - Must always be less than the size of the array
53Summary (contd.)
- The base address of an array is the address of
the first array component - When passing an array as an actual parameter, use
only its name - Passed by reference only
- A function cannot return an array type value
- In C, C-strings are null terminated and are
stored in character arrays
54Summary (contd.)
- Commonly used C-string manipulation functions
include - strcpy, strcmp, and strlen
- Parallel arrays are used to hold related
information - In a two-dimensional array, the elements are
arranged in a table form
55Summary (contd.)
- To access an element of a two-dimensional array,
you need a pair of indices - One for row position, one for column position
- In row processing, a two-dimensional array is
processed one row at a time - In column processing, a two-dimensional array is
processed one column at a time